Bar cutter



Oct.20,1936. c. w. voGT-' 2,058,046

BAR CUTTER Filed Feb. 8, 1934 7 Sheets-Sheet 1 b 19 20 f I INVENTOR i 9 #50 Clarence #4023 5 BY ATTORNEYS c. w. VOGT BAR CUTTER 7 Sheets-Sheet 4 Filed Feb. 8, 1934 @E f \g WW M ATTORNEYS Oct. 20, 1936. w, V 2,058,046

BAR CUTTER Filed Feb. 8, 1934 7 sheets-sheet 5 INVENTOR gamme l/(Vqyf r ATTCRNEYS C. W. VOGT BAR CUTTER Oct 20, 1936.

Filed Feb. 8, 1954 7 Sheets-Sheet 6 .ITYI

01 m f 1. M a w i. a I 6 1 a 0 W 0 0% m b j W 0 Flaa 7 W 9 9 9 7 m mm M a 7. 5 270 0 W20 2 M INVENTQR UZare/we .W fiyf BY a ATTORNEYS w. 20, 1936. C, w. VOGT 2,058,04ifi BAR CUTTER Filed Feb. 8, 1934 7 Sheets-Sheet 7 INVENTOR Cla/wzz'eflfiyf BY MQZA ATTORNEYS 'to the cold room sued Oct. 29, 1935. I

' duced and advanced endwise, the cutters must Patented Oct 20, 1936 Clarence W. Vogt, Louisvilla Ky;

to Vogt Processes,

mesne assignments,

asslgnor, by

Incorporated', Louisville, Ky., a corporation of Delaware Application February a, 1934. Serial No. 110,367

My present invention relates to the severance of uniform lengths from a continuously advanced filed Aug. 11, 1932, now Patent No. 2,006,375, is-' sued July 2, 1935, discloses a method and apparatus for continuously forming and sealing a tubular paper wrapper about a continuously exmally liquid at body temperature. The present inventionprovides means for. cutting such a product into suitable lengths before the product passes may be cut into suitable lengths such as long or short bars or short peripherallywrapped individual service portions such as those disclosed. in my copend application Serial No. 658,264, filed. Feb. 23, 1933, nowPatent No. 2,018,759, is-

' The problem of severing-a continuously formed and wrapped bar of this type into uniform lengths.

presents numerous difliculties due to the plastic nature of the enwrapped material. Any attempt to slice directly through the bar with a heavy.

cutter Or a saw would tear or tend to tear. the paper and would also squeeze plastic material out of the tube at the region of the cut. a

'As the bar itself is .being continuously promove with the bar as well as transversely thereof during the cutting operation.

Due to the soft character ofthe material it is not-practical to advance the cutter by its en'- with the advancing material unless the the wider the cutter the more material is carried out of the tube by the movement of the cutter through the tube and itssoft contents. Furthermore if a high speed disc type of saw or cutter be employed it sets up considerable frictional heat causing a noticeable and obviously objectionable melting of a product such as ice cream.

h In accordance with the present invention I have solved this cutting problem by the use of extremely fine saw blades, such as scroll saw blades, and so mount them on carriers which travel forwardly at the same'rate asthe rate of advance of the bar. Means is provided for moving the fine saw blades and carrier transversely with respect to the bar at the proper time and while 7 -the length or section thus cut truded stream of a plastic edible substance norfor final hardening. With my has just severed it and its improved cutter the enwrapped plastic substance ing the. lateral movemen I the material proximately on the rapidly longitudinally'reciprocating them. The

minimize the'smearing of the surface of the material at the cut. This is particularly important where more than one. flavor or color of material 5 is contained in the tube. Theshort stroke also pre cuts the blades from drawing the plastic material with them to more than the minimum distance beyond the confines of the tube.

After the severance of a suitable length from 10 theleading end of the continuously formed 'bar,

01f is moved laterally (vertically by dropping. or horizontally) and during such lateral movement its endwise movement is slightly'accelerated so that the section will get slightly ahead of the cutter which dropping or other lateral movement will take place without the end wiping against the cutter. Preferably this is accomplished by the and support the bar during cutting and then accelerate the movement of the bar before or dur- As a further feature of the invention I deliver to the tube a sufficiently hardened or stiffened condition that it may be cut into sections as above indicated and the sections may be conveyed to the hardening room, thus avoiding any need for hardening in the tube before cutting .into sections.

The invention may be more fully understood Y from the following description in connection with which can be conveniently cut bymy improved mechanism, 7

Fig. 4 is a longitudinal sectional view through the cutter mechanism taken approximately on the line 4-4 of Fig. 5,

Fig. 5 is a transverse sectional view taken apstaggered line 5-5 of Fig. 4, Fig. 5a is an enlarged sectional detail showing how the wrapper flaps are folded in by the clamps 7 during cutting of the bar,

' Fig. 6 isanother longitudinal sectional view of the mechanism but showing arrangement of cam traction, taken on the line 6-5 of Fig. 5, Fig. '7 is an enlarged sectional plan view taken approximately on the line '|--1 of Fig. 5,

more clearly the this view being use of holders which retain an forming mechanism in 25 Fig. 8 is a sectional plan view on the line 6-8 of Fig. 5,

Fig. 9 is a vertical sectional view on the line 9 -9 of Fig. 5,

Fig. 10 is a transverse sectional view on the line I0 I0 of Fig. 4,

Fig. 11 is a transverse sectional view on the line II-II of Fig. 10,

Fig. 12 is a fragmentary longitudinal sectional detail corresponding to Fig. 6 but showing the operation of the emergency restoring device for the clamp-actuating kicker, and

Fig. 13 is-a view generally similar to Fig. 15 but illustrating a modified cutter mechanism for cutting short lengths of material.

Referring first to Fig. 1 of the drawings, F designates a main frame structure above which supported a frame A mounting a conveyor C which delivers the enwrapped plastic bar I3I to a cutter mechanism also mounted on the main frame F and designated generally at D. The cut lengths of enwrapped plastic material are carried oil? by a conveyor B.

In Figs. 2 and 3 I have illustrated two types of enwrapped plastic bars, typically paper wrapped, partially frozen ice cream which may be fed to my improved cutter mechanism by the conveyor. Diiferent means or methods for continuously forming such enwrapped' bars of plastic material are disclosed in my Patent No. 2,006,375 and my application Serial No. 709,642, filed Feb. 3, 1934, now Patent No. 2,006,376, issued July 2, 1935. The bar I3I of Fig. 2 consists of a cylindrical mass I0 of plastic substance substantially encircled by a paper wrapper strip II. The edges of this strip are concealed by a sealing strip I2 which is partially wrapped around the tube forming strip II and adhesively connected thereto as at I3, the edges of the strip I2 projecting laterally to define flaps or tabs I4. A weakened line I5 provided in the strip I2 between the adhesive areas I3 is adapted to serve as a rupture line when unwrapping individual service portions of ice cream such as may be produced by hardening the enwrapped plastic mass and severing it transversely into suitable lengths.

Another type of bar which, may be conveniently handled by my cutting apparatus is shown in Fig. 3. This bar I3Ia consists of a cylindrical mass of plastic material I6 having a wrapper which consists of two strips I1 and I8, each strip being wrapped around slightly more than half of the bar. One end of each strip is overlapped anion may be adhesively connected together as at In conveying the bar I3I or I 3Ia. as thecase may be, to the cutter mechanism, the conveyor C may conveniently grip the projecting tabs I4 or I9 as the case may be, and advance not only the bar itself but act to pull the strips of wrapping material from the source of supply through a tube forming mechanism nd along the filling tube.

Any suitable type of conveyor mechanism may be employed. The particular mechanism indicated in the drawings is that illustrated in my Patent No. 2,006,376, but the details thereof form no portion of the present invention. .This convey or includes two endless chains 25 and 26 of articulated blocks, the lower working run 21 of I the upper chain and the upper working run 26 of g the lower chain coacting to grasp the tabs of the enwrapped plastic bar and advance this bar to the cutter mechanism. Between the gripping surfaces is proper space for the body of the bar.

The cut-off mechanism indicated generally at D in Fig. 1 and shown more in detail in Figs. 4 5

to 12 is disposed between a pair of frame plates I40 mounted on the main frame M and include horizontally upper extensions I. These frames are'connected at suitable intervals by cross frame pieces I42, I43, and ings I45 for a pair of horizontally disposed shafts I46 and I41 having sprocket wheels I 49 and I50 over which a chain I48 travels. The upper run of the chain travels over a track plate I5I mount- I44 and they provide bear- 10 ed on the cross frame pieces I42, I43. The link 15 pivot pins are encircled by rollers I52 which ride on this narrow track.

The sprocket wheels are-disposed midway of the two side plates I40 and the lower run of the chain is not directly supported but is indirectly 20 I54, the ends of which travel in horizontal chan- 30 nels defined by the pairs of track bars I55 so that the lower run of the sprocket chain is always partially supported at least by the engagement of the ends of those plates in their trackways.

One plate I54, preferably the second plate 35 of each series of tour has secured to its under face as by bolts I56, an inverted U-shaped bracket I51 which constitutes a cutter carriage (Fig. 10) The legs of the bracket I51 are longitudinally slotted at I58 to permit vertical sliding movement therein of slide blocks I56 which carry the cutters I60 and the bolts I6I on which are rotatably mounted rollers I62 traveling in a pair of cam tracks I63. The tracks are spaced inwardly from the plates I40 by spacer sleeves I62a encircling the bolts I 62b projecting from the plates I40 and carrying the tracks. The tracks act on the rollers I62 to effect the vertical movement of the cutter carrying slides.

Each track I63 (Fig. 6) includes a flared entering mouth I64 arranged above the frame I M, an approximately semi-circular portion I65 following an are approximately concentric with the sprocket wheel. At the lower end of the curved portion track portion I66 connected to a horizontal portion I61 leading to asecond arcuate portion I66 terminating in a flared outlet end I69.

As the rollers I62 ride down the cam portion I65 is a downwardly inclined 55 I66 of the track I63, saws, knives or cutters I66 60 are moved through the enwrapped plastic bar to cut the latter in two. The cutters are held in their lowermost position as the rollers I62 ride along the portion I61 of the track and then 65 again swing upwardly while following the curved portion I66. The curve I66 is so designed that,

throughout approximately half its length it constantly approaches the sprocket wheel shaft I41 as a center and thereby draws the cutter carrier 70 slides back toward the main sprocket chain I48.

Mounted upon its outer face each of the end plates of each set of four has an angular bracket I16 (Figs. ,5 and -'7) Each bracket has an outer face "I at right angles to the plane of At suitable intervals along the length 25 r 2,053,046 the support plate I54 and inclined slightly from slightly at an angle to the plane at right angles to the direction of travel of the sprocket chain.

The upper arms I16 ofthe bell cranks carry rollers I11 at their free ends which travel in channel trackways I18 carried by bolts projecting inwardly from the plate I40 which bolts are encircled by spacer sleeves "8:1. The opposite ment of stops I18a (Fig. 5) on the arms I18,

cooperatively define a generally cylindrical support for the bar of enwrapped plastic material.

These supports act on the bar to support it preceding and during the' cutting of the bar. By having the bell crank pivots set at a slight angle to the plane in which the chain travels the bar supporting parts are slightly accelerated in their forward movement after the bar is cut and'as these clamps move toward an open position to release and drop the bar. This acceleration is suflicient to advance the bar far enough ahead .the sprocket wheels.

of .the cutter mechanism so that the trailing end of the bar will not trip against the saw as the bar drops onto a carry off conveyor B (see Fig. 1). This motion will be more fully described hereinafterjin conjunction with the description of the operation 'ofthe machine.

The track I18 (Fig. 6). in which the rollers I11 of the bell cranks travel, includes two arcuate end portions I82 and I83 concentric with The entering end portion I82 continues as a lower short horizontal run I84 terminating in a downwardly inclined section I85'which acts upon the rollers I." to effect closing of the holders I80 about the advancing bar. Beyond the inclined portion I85 the trackway has a horizontal portion I85 the major section I81 of which is upwardly displaceable, and beyond the section I81 the track continues in the form of the cum/ed section I83.

At practically all of the time the rollers of two bell cranks are disposed within the displaceable track section I81 (Figs. 4 and 6) and the trailing bell crank lever of one set of plates I54 does notleave this section until after the leading bell crank lever of another set of plates enters said sections. port a section cut from the bar as shown in Fig.

I 15; A displaceable track section may be raised so that the holders I80 which are supporting the cut on section of the bar are simultaneously opened. As an incident of such opening, the

component of forward motion induced bythe angular setting of the bell crank pivot pins,

comes into play carrying a section forwardly so that it may clear'the cutter I50 as it falls onto the conveyor I8I.

The means to effect raising of the displaceable track sections I81 and to insure positive track sections I81. A pair of levers I88 parallel These two bell crank levers supto links I88 have their lower ends pivotaliy con-- nected to track sections I81 and are fulcrumed intermediate their ends on pivots I80 carried by cross bar I43, the bar being slotted at I8I to provide clearance for movement of levers I88. The upper end of at least one lever I88 is pivoted at I82 to a push bar I83.

The leading plate I54 of each set carries cams I84 for coaction with the cam faces of studs I85 projecting downwardly from the displaceable track sections I81. The third plate of each set carries corresponding cams I88 laterally displaced from thepaths of travel of the cams I84. With the parts in the position of Fig.6, cams I84 are just about to act on the studs I85 to elevate the track section I81, a bar having just been cut. During the elevationofthe displaceable track section to. the limiting position as shown in Fig. 12 the lever I88 and lever I88 swing in counterclockwise direction and the lower end of push bar I83 is moved downwardly as an incident of the elevation of the track section.

If the track section drops back into place by gravity, as soon as the stud I85 rides off cam I84, this raises the push rod I83'0utof the path of the cam I 88, but if the track does notdrop the cam I 85 will immediately engage the push bar I83 and act through the lever I88 to force the track section back into place. By having the 'cam I88 out of the plane of the stud I85 and the cam- I84 out of the plane of the end of the push bar I83, the two cams act independently on different parts. i The structural details of a preferred form of the cutter mechanism areshown in Figs. 10 and 11. The cutter I50 which is in the nature of an extremely fine saw blade is preferably brought to a knife edge in order to out rather than saw the product or material as it passes through the same. It is obvious that saw teeth of any appre-. ciable width would likely cause'a deposition of some of the material from the saw knife onto the surface of the comestible which would be objectionable. The blade has its ends secured in clamp members I81. Clamp I 81 is ,fixed as by cotter pins' I88 to the inner end of a horizontal rod I88 slidably guided in a transverse opening- I881; in one of the blocks 458. A pair of spaced vertical stud shafts 20I extends through the rod I88 and carry rollers 202 at their lower ends. Their upper ends have nuts 203 and washers 204 to clamp collars 205 against the outer face of a bearing sleeve 200. The colla'rs'205 are disposed in longitudinal seats 206 in an outer sleeve 201 which encircles the sleeve 200 and is mounted in a socket 208 in the outer face of,the block I58. The slots in'the rigid sleeve 201 permit reciprocation of the rod or bar I88, prevent rotation of it, and retain the roller spindles in vertical position.

On the opposite block I58 a sleeve 208 is secured in a socket 2I0 corresponding with socket 208. Clamp I81 is carried by a rod 2 corresponding'to the rod I88 and sliding in its. block I58. A cutter .tensioning spring 2I4 encircles the rod 2| I between a collar 2I2 and the bottom of the socket '2I0, the rod at its outer en'd being guided by a cap. 2I3. During the main portion of the travel of the cutter it is not reciprocated, but during the travel of the rollers I62 down the inclined portion I56 of the trackway I53 the saw J80 is rapidly reciprocated, the driving means engaging between the pair of rollers 202 and bodily moving the rod I08 back and forth. The

spring 2 I4 is alternate compressed and expanded to keep the cutter ta tg R The mechanism with whichwlie rollers 202 engage along a short part of their path and whereby the cutter is reciprocated during its downward movement along the track section I66, is illustrated in sectional plan in Fig. 8 in longitudinal vertical section in Fig. 9, in transverse section in Fig. 10, and in end elevation in Fig. 5.

Mounted on a bracket 2I5 at the outside of one of the frames I40 is an electric motor 2I6 having a crank disc 2I'l upon which is eccentrically mounted a crank pin 2I8 (Figs. 5 and 8). A link or pitman 2I9 pivoted at one end on the crank pin has a pivotal connection 220 at its opposite end with a cross head 22I. The latter is secured by nuts 224 or in any other suitable manner to a pair of slide rods 222 supported in bearing sleeves 223 in the frame I40. A cross bar 225 is secured on the opposite reduced threaded ends of the guide rods 222 and between shoulders 226 and nuts 221.

The ends of the cross bar 225 are pivotally connected at 2-28 and 228 respectively to a pair of links 230 and 23I, the opposite ends of which are loosely mounted upon fixed pins 232 and 232a to provide for the necessary longitudinal movement of the links as they are oscillated by the reciprocating cross bar 225.

The rollers are guided into straddling relationship with the oscillating link 230 by the fixed pointed guide member 233 supported by a bracket 234 secured to the inner face of plate I40. A second bracket 236 fixed to the inner face of this plate carries the pivot stud 232 for the link 23I. The bar 225 has a downwardly inclined upper surface 225a corresponding to the downward inclination I66 of the cam track I63 so that as the saw moves down the track portion I66 the bar I98 will move over the bar 225 parallel to the inclined surface 225a and the rollers 202 will remain in engagement with the opposite sides of the bar 225 along the full length of the latter. The reciprocation of the cutter will begin when the rollers 202 begin to move along the link 230 and the range of movement will increase until therollers reach the cross bar 225. The range remains constant until the rollers reach the link 23I and decreases to the end of said link. The cutter then stops reciprocating.

While the operation of the mechanism will be in large measure self-evident from the foregoing description, such operation may be briefly sum marized as follows:

The plastic filled tube is sufliciently stiff to bridge from the end of the conveyor to a point where it is engaged by the first clamp defined by two of the sections I80 of two opposed bell cranks. This sectional clamp or support closes about the plastic filled tube as the bell crank rollers travel down the incline I85 so that a section to be cut I is supported (Fig. 4) by the trailing sectional clamp of one plate set and the leading sectional clamp of a second plate set before the saw comes into operation. With the bar resting within the two sectional clamps, the rollers I62 of the cutter carrying slide I59 enter the inclined portions I66 of the cam tracks I63 and at the same time the rollers 202 which havealready straddled the link relative positioning of clamps and cutters, I

230 and are being slightly vibrated, move on to the reciprocating cross piece 225. At this'time the saw carriage and the bar holding clamps are moving in the same direction and at the same rate of speed as the bar to be out, and while such movement continues the reciprocating cutter I60 moves downwardly severing the bar.

While the saw is still in its lowermost position, that is while the rollers I62 are traveling in the track portion I 61, track section I8! is raised to open both of the sectional clamps which have been holding the cut bar and at the same time draw the cut of! section of the bar sufliciently forwardly so that its rear end clears the cutter and the bar drops onto the carry off conveyor I 8I without any wiping engagement with the blade.

Having advanced and dropped the bar, the two sectional clamps temporarily reclose and remain in closed position until they are again opened by moving the bell crank rollers inwardly toward the sprocket wheel shaft I46 as these rollers travel downwardly around this sprocket. This is accomplished by the eccentric placement of this track with respect to the sprocket shaft I46, as is clearly shown in Fig. 6. The sectional clamps remain open as they span the oncoming bar I 3| and remain open until they reach the track section I85 and as they pass down this curve the bell crank rollers move downwardly, thus closing the crank arms around the tube. The saw carrying blocks are moved inwardly toward the bars I54 as the rollers I62 travel up the inclined portion I68 of the track I63, the saw remaining in this position until such time as it is again positively moved outwardly and downwardly by the engagement of the rollers with the track section I66. Due to the fact that plates I54 are spaced at sufliciently close intervals, no appreciable sag occurs in the lower run of the sprocket chain I48. Before the initiation of each cut, the cutters have started to reciprocate, this reciprocation obtaining its greatest range during the time that the actual cut is made. The fine nature of the blades and the relatively rapid and short reciprocating movement which isimparted to them during cutting precludes the possibility of tearing the wrapper or mashing the enwrapped plastic material or squeezing plastic material out of the wrapper tube during the cutting operation.

There is no likelihood of the cutter catching and tearing the flaps I4 or I9 as the case may be, of bar I3I or I3Ia since as the clamps I engage the bar, they operate to fold these tabs inwardly against the sides of the bar as is clearly apparent from Fig. 5a, and since the bar is embraced by two clamps, one at each side of-the cutter, the tabs will not be free to yield appreciably as the saw goes through.

If the bars consist of partially frozen ice cream they may be conveniently passed to a hardening room by a conveyor B and after the cream has been thoroughly hardened, they may be subsequently sub-divided into individual service portions of ice cream. By suitably spacing the cutters and by a suitable arrangement of supporting clamps it will be apparent that bars of much greater length may be cut and I also contemplate a similar arrangement of cutter mechanism for severing bars into much shorter lengths, typically into enwrapped one pint sections of ice cream.

Such a mechanism is illustrated in Fig. 13 and since it corresponds in all material respects with the cutter mechanism above described, save for tabs onthe bar with the latter extending outbar is gripped by two clamps arranged immediately adjacent each side of the cutter carrier during each cutting operation, the clamp which is the trailing one during one cutting operation serving as the leading 'clamp during the next moving operation. It is worthy of note that where it proves desirable,the cutter mechanism and if desired the conveyor which delivers, the bars to the cutter, may-be arranged in the hardening room where the prevailing low temperature will case harden the plastic material before severance by the cut-' ter mechanism, thereby furthe minimizing the danger of smearing the plasti material during cutting. It will be noted that the conveyor shown in Fig; 1 includes upper and'lower runs which grips the wardly in approximately horizontal positions.

The supporting members I80 shownparticularly in Figs. 4, 5, and 5a are on opposite sides of a" vertical plane. It will be evident that if the bar be made with the flaps on the upper and lower sides so as to extend upwardly and downwardly, the conveyor C shown in Fig. 1 might be omitted and the members I80 so formed as to grip the tabs and act as the sole bar advancing means.

Having thus described my invention, what I claim .as new and desire to secure by Letters Patent is 1. Apparatus for transversely severing lengths from a continuously advanced bar, comprising a conveyor having bar supporting means and cutter carrying means carried thereby and movable in the same direction as the direction of advance of the bar, means for moving the cutters in a plane transverse to the path of travel of the bar during the movement of the cutter carrier with the bar and means for axially reciprocating the cutters in respect to the conveyor during such transverse movement.

2. A cutter mechanism for subdividing into sections a bar movable endwise, including a conveyor having carried thereby a plurality of orbitally movable cutter carriers, and a plurality of orbitally movable support members adapted during movement along a certain portion of their orbit, to receive and support said bar, means operable while the bar is supported for actuating the cutters to move them transversely to the direction of travel of the bar and sever the latter, and means for reciprocating the cutters in respect to said carriers.

3..A cutter mechanism for subdividing into sections an endwise movable bar, including a plurality of orbitally movable fine saws, a plurality of orbitally movable support members adapted during movement along a certain portion of their orbit, to receive and'support a continuously advancing bar of material to be cut and means operable while the bar is supported for actuating the saws tomove them transversely to the direction of travelof the bar and sever the latter,

andmeans for effecting reciprocation oi the saws as they pass through the bars.

4. A cutter mechanism for. subdividing into sections an endwise movable bar, including a plurality of orbitally movable cutter carriers, a plu- -'rality of orbitally movable support members A 70 adapted during .a certain portion of their orbit,

' toreceive and support. a continuously advanci 1g bar of material to "be cut and means operaole while the bar is supported for actuating the cutters to move them transversely to the direction of travel of the bar and severthe latter. means for accelerating the movement of certain of the from which it may be laterally displaced without wiping engagement with the cutters or with the bar behind them. I

5. A cutter mechanism for intermittently severing lengths from a continuously axially-advancing wrapped bar of plastic material comprising an endless conveyor, means carried thereby for supporting the bar, means also carried by said conveyor and operable while said bar is so supported to cut oi the leading end thereofand means operative after such length has been cut to advance said supporting means and said length forwardly at an accelerated speed in respect to the conveyor so that it clears the cutterand may be dropped by gravity without wiping against the cutter. a d r 6. Apparatus of the class described including ing a plastic filled paper tube, means beyond said conveyor mechanism for temporarily supporting the end of the filled tube, means for transversely severing lengths of the tube while so supported, means for moving said support means and cutter means at the same speed as the tube in the direction of travel of the means for movh a conveyor mechanism for engaging and advancing the cutter means transversely through the means at the same speed as the tube in the direction of travel of the means for moving the cutter means transversely through the tube to sever the latter, said support means including separable support elements adapted to be opened to drop a severed length of tube, and meansfor accelerating the motion of said support means Just before said cut length of tube is dropped so that the tube may clear the cutting means.

8; Means for receiving and supporting the end of a continuously advancing rod or bar, means for severing a predetermined length from such end, an endless chain travelling'at the-same rate of speed as the rate at which the-bar progresses and mounting said bar support members at intervals therealong, said support members each in.- cluding complementary generally semi-cylindrical support forming members, means for moving said members together as they reach a position to engage the bar, said cutter mechanism being also carried by the chain and including a frame adapted to straddle the advancing bar, a cutter vertically reciproc'able in the frame, means for periodically moving said cutter from its uppermost to its lowermost position to. sever the bar while the cutter is advancing with-the bar.

9. Means for receiving and support, g the end of a continuously advancingrod-or ar, means for severing a predetermined length from such 'end, an endless chain travelling at the same rate of speed as the rate at which the bar progresses and mounting said bar support members at intervals therealong, said support members each including complementary generally semi-cylin-' drical support forming members, means for moving said members together as they reach a position to engage the bar, said cutter mechanism being also carried by the chain and including a frame adapted to straddle the advancing bar, a cutter vertically reciprocable in the frame, means for periodically moving said cutter from its uppermost to its lowermost position to sever the bar while the cutter is advancing with the bar and means for transversely reciprocating the cutter during such cutting operation.

10. Means for receiving a continuously formed rod or bar, supporting the end of the bar while a predetermined length of such end is severed and for gravitationally discharging the cut length, said means including an endless vchain travelling at the same rate of speed as the rate at which the bar progresses, bar support members arranged at intervals along said chain and each including complementary generally semicylindrical support forming members, means for moving said members together as they reach a position to engage the bar, a cutter mechanism carried by the chain and including a frame adapted to straddle the advancing bar, a cutter vertically reciprocable in the frame, means for periodically moving said cutter from its uppermost to its lowermost position to sever the bar while the cutter is advancing with the bar and means for opening the bar support members to permit a cut bar to drop.

11. Means for receiving a continuously formed rod or bar supporting the end of the bar while a predetermined length of such end is severed and for gravitationally discharging the cut length, said means including an endless chain travelling at the same rate of speed as the rate at which the bar progresses, bar support members arranged at intervals along said chain and each including complementary generally semicylindrical support forming members, means for moving said members together as they reach a position to engage the bar, a cutter mechanism carried by the chain and including a frame adapted to straddle the advancing bar, a cutter vertically reciprocable in the frame, means for perodically moving said cutter from its uppermost to its lowermost position to sever the bar while the cutter is advancing with the bar and means for opening the bar support members to permit a cut bar to drop and means for accelerating the forward movement to the support members as an incident of opening the latter, whereby the bar is shifted forwardly a suflicient distance to prevent a wiping engagement of the severed end of the cutter as such end drops.

12. In a machine of the class described, means for continuously advancing a bar of enwrapped plastic material having a projecting tab to be gripped by said advancing means, means for severing lengths from the bar, support means associated with said severing means and adapted to move with said severing means in the same direction as the bar and at the same rate 01' speed as the bar while supporting the latter during severing, said support means being operable to fold the tab inwardly against the bar whereby it will not become torn by the severing means during a severing operation.

13. In a machine of the class described, means for continuously advancing a bar of enwrapped plastic material having a projecting tab to be gripped by said advancing means, means for severing lengths from the bar, support means associated with said severing means and adapted to move with said severing means in the same direction as the bar and at the same rate of speed as the -bar while supporting the latter during severing, said support-means being operable to fold the tab inwardly against the bar whereby it will not become torn by the severing means during a severing operation, said support means including a sectional clamping element movable laterally into engagement with the bar and acting to flatten the tab against the bar prior to the cutting operation.

14. An apparatus ,tor cutting into sections a bar continuously advancing endwise in a substantially straight line, including an orbitally movable cutter carrier, saws carried thereby and movable laterally in one direction in respect to the path of movement of said bar to efl'ect feeding movement of the saws through the bar, and means for axially reciprocating the saws in respect to the cutter during such lateral move-.

ment to eilect the cutting operation.

15. An apparatus for cutting into sections a bar continuously advancing endwise, including an endless series of bar supports and bar cutter supports, means for continuously moving them in succession along a predetermined endless path, a portion of said path substantially coinciding with the path of movement of the bar to be cut. means for causing said bar supports to engage said bar to support the latter during movement along a portion of said path, saws carried by cutter supports, and means for causing said saws to move transversely of the path of movement of said bar and in respect to said cutter supports during movement along a portion of said endless path.

16. An apparatus for cutting into sections a I bar continuously advancing endwise, including an endless series of operating elements, means for continuously moving them in succession alonga predetermined endless path, a portion of said path substantially coinciding with the path of movement of the bar to be cut, means for causing certain of said elements to engage said bar to support the latter during movement along a portion of said path, saws carried by other of said elements, means for causing said saws to move transversely oi. the path of movement of said bar during movement along a portion 01' said endless path, and means for causing said saws to reciprocate only during said transverse movement.

17. An apparatus for cutting into sections a bar continuously advancing endwise, including an endless conveyor, a plurality of saw carriers secured thereto, a saw mounted in each carrier, means for moving said saw laterally in respect to its carrier during movement of the carrier along a portion only of the path of said conveyor, and means mounted adjacent to a portion only of the path of movement of said saw carriers for causing reciprocation of said saws while in said portion of said path.

18. An apparatus for cutting into sections'a bar continuously advancing endwise, including an endless carrier having a run substantially parallel to the path of movement of said bar, a plurality of pairs of clamping elements carried by said carrier, means for moving the two elements of each pair in respect to each other to cause engagement of said bar when said elements reach a point in their path of movement, means for eilecting a second relative movement of said elements at another point in their path of movement to disengage said bar, and means for electing severing of the bar during its endwise move-' 'to said conveyor during movement o! the saw ment between said points. I 7 along a. predetermined portion of its orbital path, 19.- An apparatus for subdividing bars conand means for reciprocating said saw in respect tinuously advanced endwise, which includes an to said conveyor during at least a portion of endless conveyor, a. pluralityot saws carried by said first mentioned movement.

said conveyor, means for moving each saw transverseiy ot the path of said bars and in respect I CLARENCE W. VOG'I. 

